CN110507994A - Control method, apparatus, equipment and the storage medium of virtual aircraft flight - Google Patents

Abstract

This application discloses method, apparatus, equipment and the storage mediums of a kind of control virtual aircraft flight, belong to field of computer technology.This method comprises: obtaining the corresponding virtual objects quantity at least one first position in virtual scene when receiving flight directive；From at least one first position, the most second position of virtual objects quantity is chosen；According to the third place that the second position and virtual aircraft are presently in, the first flight path of virtual aircraft is generated；In virtual scene, control virtual aircraft is flown along the first flight path to the second position.This application provides a kind of methods of automatic control virtual aircraft flight, realize the function of automatic cruising, user is eliminated to the troublesome operation of virtual aircraft, to save the time spent needed for control virtual aircraft flight, therefore improves the efficiency of control virtual aircraft flight.

Description

Control method, apparatus, equipment and the storage medium of virtual aircraft flight

Technical field

This application involves field of computer technology, in particular to a kind of method, apparatus of control virtual aircraft flight is set Standby and storage medium.

Background technique

With the development of computer technology and the diversification of terminal function, the game type being able to carry out at the terminal is got over Come more.Wherein, shooting game is a kind of game more prevailing, and terminal can show virtual scene in interface, and Virtual aircraft, such as aerial gunboat, aircraft, fighter plane, fire balloon etc. are shown in virtual scene, user can control virtual fly Row device flies in virtual scene.

Currently, the method for control virtual aircraft flight is usually: terminal shows virtual scene, and user is in virtual scene Suitable position is found for virtual aircraft, touch control operation is carried out to the position；Terminal determines the position according to the touch control operation It sets, control virtual aircraft is flown in virtual scene to the position.

When using the above method, need to rely on the manual operation of user, it is relatively complicated, so that needed for control virtual aircraft The time of cost is longer, therefore leads to the inefficiency for controlling virtual aircraft.

Summary of the invention

The embodiment of the present application provides method, apparatus, equipment and the storage medium energy of a kind of control virtual aircraft flight Enough solve the problems, such as the inefficiency for controlling virtual aircraft in the related technology.The technical solution is as follows:

On the one hand, a kind of method of control virtual aircraft flight is provided, which comprises

When receiving flight directive, the corresponding virtual objects quantity at least one first position in virtual scene is obtained；

From at least one described first position, the most second position of virtual objects quantity is chosen；

According to the third place that the second position and virtual aircraft are presently in, the virtual aircraft is generated First flight path；

In the virtual scene, controls the virtual aircraft and fly along first flight path to the second It sets.

Optionally, described in the acquisition virtual scene before the corresponding virtual objects quantity at least one first position Method further include: in the virtual scene, show that flight control, the flight directive pass through the triggering to the flight control Signal triggering.

Optionally, the flight directive is primary every preset duration triggering.

On the other hand, a kind of device of control virtual aircraft flight is provided, described device includes:

Module is obtained, it is corresponding for when receiving flight directive, obtaining at least one first position in virtual scene Virtual objects quantity；

Module is chosen, for from least one described first position, choosing the most second position of virtual objects quantity；

Generation module, the third place for being presently according to the second position and virtual aircraft generate institute State the first flight path of virtual aircraft；

Control module flies in the virtual scene, controlling the virtual aircraft along first flight path It goes to the second position.

Optionally, the acquisition module, is also used to obtain the current location of each virtual objects in the virtual scene；

Described device further include: determining module, for according to the current location of each virtual objects and each The position in face region determines the ground region that each virtual objects are presently in；

The acquisition module, the ground region for being presently according to each virtual objects, obtains each ground Virtual objects quantity in region.

Optionally, the generation module, any one of following for executing:

Using the third place as starting point, using the second position as terminal, line segment is generated, as first flight Track；

According to the obstacle information of the second position, the third place and the virtual scene, described the is generated One flight path, first flight path can hide the barrier between the second position and the third place.

Optionally, the control module, comprising:

Acquisition submodule, for according to the initial velocity of the virtual aircraft, inceptive direction and first flight The mileage of track obtains the corresponding speed of interim each time point of flying, and the flight phase includes accelerated period and the acceleration Deceleration period after phase, speed increases with the passage at time point in the accelerated period, in the deceleration period speed with when Between the passage put and reduce；

Control submodule, for controlling the virtual aircraft according to each time point in the virtual scene Corresponding speed is flown along first flight path to the second position.

Optionally, at least one described first position is located at least one map of the virtual scene, described Obtain module, be also used to for each map at least one described map, according to the corresponding reference position of the map with And preset height, obtain the corresponding first position of the map, the difference in height between the first position and the reference position For the preset height.

Optionally, described device further include:

Display module, at least one object in ground for showing the map；

Receiving module, for receiving the trigger signal to target object at least one described object；

The acquisition module, is also used to obtain the position of the target object, as the reference position.

Optionally, the control module is also used in the virtual scene, is controlled the virtual aircraft and is stopped at institute State the second position；

Described device further include: switching module, it is described virtual winged for switching when the duration of stopping reaches preset duration Row device is the location of in the virtual scene.

Optionally, described device further include:

Display module, in the virtual scene, display position toggle control, the position toggle control to be for cutting Change the position where the virtual aircraft；

Receiving module, for receiving the trigger signal in the position toggle control；

Switching module, for switching the virtual aircraft the location of in the virtual scene.

Optionally, the switching module, comprising:

Submodule is chosen, in remaining position except the second position described at least one described first position, Choose the most the third place of virtual objects quantity；

Submodule is generated, for generating the virtual aircraft according to the third place and the second position Second flight path；

Control submodule, for controlling the virtual aircraft along second flight path in the virtual scene It flies to the third place.

Optionally, described device further include: receiving module, for receiving attack instruction；

The control module is also used in the virtual scene, controls the virtual aircraft to the second position Corresponding virtual objects are attacked.

Optionally, described device further include: display module, it is described in the virtual scene, showing flight control Flight directive is triggered by the trigger signal to the flight control；Alternatively,

The flight directive is primary every preset duration triggering.

On the other hand, provide a kind of electronic equipment, the electronic equipment include one or more processors and one or Multiple memories are stored at least one instruction in one or more of memories, and described instruction is by one or more of Processor is loaded and is executed to realize operation performed by the method for above-mentioned control virtual aircraft flight.

On the other hand, a kind of computer readable storage medium is provided, at least one finger is stored in the storage medium It enables, described instruction is loaded as processor and executed to realize operation performed by the method for above-mentioned control virtual aircraft flight.

Technical solution bring beneficial effect provided by the embodiments of the present application includes at least:

The embodiment of the present application provides a kind of method of automatic control virtual aircraft flight, passes through the intelligence from virtual scene The most position of virtual objects quantity, such as the position that unfriendly target is most can be analyzed, controls virtual aircraft according to automatic The flight path cooked up automatically moves to the position, to realize the function of automatic cruising, on the one hand, eliminate use Family saves the time spent needed for control virtual aircraft flight to the troublesome operation of virtual aircraft, therefore improves control The efficiency of virtual aircraft flight processed, on the other hand, for the mode for manually finding destination for virtual aircraft, energy It enough allows virtual aircraft accurately to reach the most position of virtual objects, guarantees that the destination of virtual aircraft is more accurate, simultaneously User is facilitated to execute attack or other operation behaviors to most virtual objects by virtual aircraft.

Detailed description of the invention

In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.

Fig. 1 is a kind of signal of the implementation environment of the method for control virtual aircraft flight provided by the embodiments of the present application Figure；

Fig. 2 is a kind of flow chart of the method for control virtual aircraft flight provided by the embodiments of the present application；

Fig. 3 is a kind of interface schematic diagram provided by the embodiments of the present application；

Fig. 4 is a kind of interface schematic diagram provided by the embodiments of the present application；

Fig. 5 is a kind of schematic diagram of height of the virtual aircraft provided by the embodiments of the present application in each map；

Fig. 6 is a kind of schematic diagram for selecting reference position provided by the embodiments of the present application；

Fig. 7 is a kind of schematic diagram for selecting reference position provided by the embodiments of the present application；

Fig. 8 is a kind of schematic diagram of the height of virtual aircraft hovering provided by the embodiments of the present application；

Fig. 9 is a kind of schematic diagram of the height of virtual aircraft hovering provided by the embodiments of the present application；

Figure 10 is a kind of schematic diagram for selecting the second position provided by the embodiments of the present application；

Figure 11 is that a kind of virtual aircraft provided by the embodiments of the present application is flown to the schematic diagram of the second position；

Figure 12 is a kind of schematic diagram of the speed of virtual aircraft flight provided by the embodiments of the present application；

Figure 13 is a kind of interface schematic diagram provided by the embodiments of the present application；

Figure 14 is a kind of interface schematic diagram provided by the embodiments of the present application；

Figure 15 is a kind of schematic diagram of virtual aircraft switching position provided by the embodiments of the present application；

Figure 16 is a kind of interface schematic diagram provided by the embodiments of the present application；

Figure 17 is a kind of interface schematic diagram provided by the embodiments of the present application；

Figure 18 is a kind of interface schematic diagram provided by the embodiments of the present application；

Figure 19 is a kind of flow chart of aerial gunboat automatic cruising method provided by the embodiments of the present application；

Figure 20 is the structural schematic diagram of a kind of electronic equipment provided by the embodiments of the present application.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description, it is clear that described embodiment is some embodiments of the present application, instead of all the embodiments.Based on this Shen Please in embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall in the protection scope of this application.

The printed words such as term " first " " second " are used for the identical entry or similar essentially identical to effect and function in the application Item distinguishes, it should be appreciated that do not have the dependence in logic or timing between " first ", " second ", " n-th ", it is also not right Quantity and execution sequence are defined.

Term "at least one" refers to one or more in the application, the meaning of " plurality " is refer to two or more, For example, multiple first positions refer to two or more first positions.

Hereinafter, to this application involves term explain.

Virtual scene: being the virtual scene of display when application program is run at the terminal (or offer).The virtual scene can To be the simulated environment to real world, it is also possible to the semifictional virtual environment of half emulation, can also be pure imaginary virtual Environment.Virtual scene can be any one in two-dimensional virtual scene, 2.5 dimension virtual scenes and three-dimensional virtual scene, this Shen Please this is not limited.For example, virtual scene may include sky, land, ocean etc., which may include desert, city The environmental elements such as city, user can control virtual objects and move in the virtual scene.

Virtual objects: refer to the movable object in virtual environment.The movable object can be virtual portrait, virtual Animal, cartoon character etc., such as: personage, animal, plant, oil drum, wall, stone for being shown in virtual environment etc..This is virtual Object can be a virtual virtual image for being used to represent user in the virtual scene.It may include more in virtual scene A virtual objects, each virtual objects, with itself shape and volume, occupy one in virtual scene in virtual scene Divide space.Optionally, which can be by operating the role controlled on the client, be also possible to pass through instruction Practice the artificial intelligence (Artificial Intelligence, AI) being arranged in virtual environment battle, can also be and be arranged in void Non-player role (Non-Player Character, NPC) in the battle of near-ring border.Optionally, which is virtual The virtual portrait raced in environment.Optionally, the quantity of the virtual role in virtual environment battle, which can be, sets It sets, is also possible to according to the Number dynamics determination that the client fought is added.

By taking shooting game as an example, user can control virtual objects in the aerial free-falling in the day of the virtual scene, cunning Xiang or release a parachute falls etc., runs, beats in land, creeping, bending over forward etc., also can control virtual Object is in ocean went swimming, floating or dive etc., and certainly, user also can control virtual objects and take virtual carrier in the void It is moved, is only illustrated herein with above-mentioned scene, the embodiment of the present application is not especially limited this in quasi- scene.With Family also can control virtual objects and be fought by weapons and other virtual objects, which can be cold steel, can also be with It is hot weapons, the application is not especially limited this.

Virtual aircraft: the virtual carrier that can be flown in virtual scene, also referred to as aerial carrier, flight instruments or flight Carrier.For example, virtual aircraft can be aerial gunboat, aircraft, fighter plane, fire balloon etc..By taking aerial gunboat as an example, aerial big gun Ship is a kind of heavy ground attack aircraft in real world, in the sky can be by operating heavy artillery, to ground on gunboat On unfriendly target attacked, for example, aerial gunboat can be the aerial gunboat of U.S. AC-130.Battle between users In, when a user has called aerial gunboat, the visual angle of the user can be switched in the air, so that analog telecommand drives aerial big gun The effect of ship.In the present embodiment, a kind of scheme of aerial gunboat of automation control is proposed, aerial gunboat is can be realized and patrols automatically The function of boat.

Automatic cruising: virtual aircraft is from virtual scene, Automatic-searching target position, and is automatically moved to target position Function.In the present embodiment, target position can be the most position of virtual objects quantity, such as the position that enemy's quantity is most It sets.

Hereinafter, to this application involves system architecture be introduced.

Referring to FIG. 1, Fig. 1 is a kind of implementation ring of the method for control virtual aircraft flight provided by the embodiments of the present application The schematic diagram in border.The implementation environment includes: first terminal 120, server 140 and second terminal 160.

120 installation and operation of first terminal has the application program for supporting virtual scene.The application program can be virtual existing Real application program, three-dimensional map program, Military Simulation program, first person shooting game (First-person shooting Game, FPS), it is the online tactics competitive game of more people (Multiplayer Online Battle Arena Games, MOBA), more Any one in people's gunbattle class survival game.First terminal 120 is the terminal that the first user uses, and the first user uses first The operation of terminal 120 is located at the first virtual objects carry out activity in virtual scene, which includes but is not limited to: adjustment body appearance State creeps, walking, at least one of runs, rides, jumps, drives, picks up, shoots, attacks, throws.Schematically, One virtual objects are the first virtual portrait, such as artificial figure role or cartoon character role.

First terminal 120 and second terminal 160 are connected by wireless network or cable network with server 140.

Server 140 includes at least one in a server, multiple servers, cloud computing platform and virtualization center Kind.Server 140 is used to that the application program of virtual scene to be supported to provide background service.Optionally, server 140 undertakes mainly Work is calculated, first terminal 120 and second terminal 160 undertake secondary calculation work；Alternatively, server 140 undertakes secondary calculation Work, first terminal 120 and second terminal 160 undertake main calculating work；Alternatively, server 140, first terminal 120 and Cooperated computing is carried out using distributed computing architecture between two terminals, 160 three.

160 installation and operation of second terminal has the application program for supporting virtual scene.The application program can be virtual existing Real application program, three-dimensional map program, Military Simulation program, FPS, MOBA, any one in more people's gunbattle class survival games. Second terminal 160 is the terminal that second user uses, and second user is located at the in virtual scene using the operation of second terminal 160 Two virtual objects carry out activities, which includes but is not limited to: adjustment body posture, creep, walking, run, ride, jumping, At least one of drive, pick up, shoot, attack, throw.Schematically, the second virtual objects are the second virtual portraits, such as Artificial figure role or cartoon character role.

Optionally, at the second virtual objects that the first virtual objects and second terminal 160 that first terminal 120 controls control In same virtual scene.In some embodiments, the first virtual objects and the second virtual objects can be hostile relations, example Such as, the first virtual objects may belong to different troops and tissue from the second virtual objects, and first terminal 120 can control first Virtual objects attack the second virtual objects.In an exemplary scene, first terminal 120 can be virtual winged in control Row device carries the first virtual objects, and it is virtual right to second to control virtual aircraft for flight to the region where the second virtual objects As launching a guided missile, to carry out Strike to the second virtual objects, and then the second virtual objects are killed.In other embodiments In, the first virtual objects and the second virtual objects can be partnership, for example, the first virtual portrait and the second virtual portrait It may belong to the same troop, the same tissue, with friend relation or with provisional communication permission.

Optionally, the application program installed in first terminal 120 and second terminal 160 be identical or two terminals on The application program of installation is the same type application program of different operating system platform.First terminal 120 can refer to multiple ends One in end, second terminal 160 can refer to one in multiple terminals, and the present embodiment is only with first terminal 120 and second Terminal 160 illustrates.The device type of first terminal 120 and second terminal 160 is identical or different, the device type packet It includes: smart phone, tablet computer, E-book reader, MP3 (Moving Picture Experts Group Audio Layer III, dynamic image expert's compression standard audio level 3) player, MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert's compression standard audio level 4) player, pocket computer on knee and At least one of desktop computer.For example, first terminal 120 and second terminal 160 can be smart phone or other hands Hold portable gaming device.Following embodiment is illustrated so that terminal includes smart phone.

Those skilled in the art could be aware that the quantity of above-mentioned terminal can be more or less.For example above-mentioned terminal can be with Only one perhaps above-mentioned terminal be tens or several hundred or greater number.The embodiment of the present application to the quantity of terminal and Device type is not limited.

Hereinafter, to this application involves method flow be introduced.

Referring to FIG. 2, Fig. 2 is a kind of process of the method for control virtual aircraft flight provided by the embodiments of the present application Figure.The present embodiment is applied in this way in terminal for example, the terminal can be first terminal 120 shown in FIG. 1, the party Method includes:

201, when terminal receives creation instruction, terminal creates virtual aircraft.

Creation instruction is used to indicate terminal creation virtual aircraft.In some embodiments, creation instruction can pass through use The operation at family triggers.For example, terminal can show calling control, when user will call virtual aircraft in the virtual scene When, touch control operation can be carried out to calling control, then terminal can receive the trigger signal to the calling control, and triggering creation refers to It enables, creates virtual aircraft.Wherein, which calls control for calling the virtual aircraft to enter the virtual scene Form can be a button of the display that suspends in virtual scene.

202, terminal shows virtual aircraft in virtual scene.

Terminal can obtain the initial position of virtual aircraft from virtual scene, can show in the initial position empty Quasi- aircraft realizes that user calls out the function of virtual aircraft to reach the display effect of virtual aircraft admission.Signal Property, it is interface schematic diagram provided by the embodiments of the present application referring to Fig. 3 and Fig. 4, Fig. 3 and Fig. 4, in Fig. 3 and Fig. 4, The initial position of virtual aircraft is point A, and when user calls virtual aircraft, terminal can generate aerial gunboat, show in point A Aerial gunboat, in addition, terminal can switch at the visual angle of user in the air from the personage on ground, so that analog subscriber drives virtually The effect of aircraft takeoff brings the user experience that virtual aircraft is operated under first person.

Initial position can in the sky of virtual scene, ground or ocean, the present embodiment to initial position without limitation. Initial position is referred to as landing point (Vertical Take-Off and Landing spot, VTOL spot) or appears on the scene Position.In some embodiments, a position can be pre-selected in virtual scene, configure virtual aircraft for the position Initial position, by showing virtual aircraft in the preconfigured initial position, to reach virtual aircraft in fixation The effect that position generates.In further embodiments, terminal can generate a position at random, using the position as virtual flight The initial position of device shows virtual aircraft in the initial position generated at random, to reach, system random selection is virtual to fly The effect of the generation point of row device.Optionally, initial position can be at the aerial preset height in the day of virtual scene, thus real The effect that existing virtual aircraft is generated in fixed height.

203, when terminal receives flight directive, terminal obtains the corresponding void at least one first position in virtual scene Quasi- number of objects.

Flight directive is used to indicate terminal control virtual aircraft and flies the position most to virtual objects quantity.Specifically Ground, if the virtual objects of terminal control are the first virtual objects, the most position of virtual objects can be the second virtual objects The most position of quantity, second virtual objects are different from the first virtual objects, for example, the second virtual objects can be and first Virtual objects are the virtual objects of hostile relations, then the most position of the virtual objects can be enemy or other unfriendly target numbers Measure most positions.For another example, the second virtual objects can be the virtual objects that are partnership with the first virtual objects, then the void The most position of quasi- object can be the most position of teammate's quantity.

The triggering mode of flight directive may include one or more, as an example, triggering mode may include following touchings Originating party formula one is to any one of triggering mode three or multinomial.

Triggering mode one, flight directive can when creating virtual aircraft and completing automatic trigger, fly to reach virtual It is flown automatically after row device admission to the effect of the most position of virtual objects, the function of intelligent selection hovering point when realizing admission.

Triggering mode two, flight directive can trigger by the operation of user.For example, terminal can be in the virtual scene In, show flight control, user can carry out touch control operation to flight control, then terminal can receive the touching to the flight control It signals, triggers flight directive.Wherein, the form of flight control can be the button shown in virtual scene.

Triggering mode three, flight directive can that is to say that flight directive can be automatic every preset duration with periodic triggers Triggering is primary, to achieve the effect that virtual aircraft is flown the position most to virtual objects automatically at regular intervals.

First position refers to the candidate destination of virtual aircraft, may include one or more virtual around first position Object does not include virtual objects.It may include one or more first positions in virtual scene, for example including 3 first It sets.Wherein, different first positions can be located in identical or different map, and the distance between different first positions can be identical Or it is different.In some embodiments, first position can be denoted as hovering point or cruise point, and virtual aircraft can be at first position It stops.Schematically, three first positions are shown referring to Fig. 3 and Fig. 4, Fig. 3 and Fig. 4, is point B, point C and point respectively D.First position can be configured in advance, and first position can be any position in virtual scene, as an example, first Set may include any one of following (1) to (3) or multinomial combination.

(1) first position be located at the virtual scene day it is aerial.

First position can be air position, and for each first position at least one first position, terminal can It, will be in the ground region below the first position to obtain the virtual objects quantity in the ground region below the first position Virtual objects quantity is retrieved as the corresponding virtual objects quantity in the first position.Wherein, each first position can correspond to one The center of a ground region, first position and corresponding ground region can be located on same vertical line, first position and corresponding Can be at a distance of preset height between ground region, ground region can be border circular areas, naturally it is also possible to be square region or its The region of his shape.For example, with reference to Fig. 3 and Fig. 4, if first position is point B, the corresponding ground region of point B be can be under point B The region of a certain range composition in the land of side.

Optionally, virtual scene may include at least one map, may include first position in each map, differently The level of figure can be different, and the height above sea level of the first position in different maps can be identical, then terminal selection is appointed Any first position of one map is as the second position to be flown to, and after controlling virtual aircraft flight, virtual aircraft is not Identical height above sea level can be kept with the position reached in map, is changed without the difference with map, then due to phase The ratio of ground target seen with the visual field of height above sea level is identical, it is ensured that virtual aircraft is flown in different maps In the rear overhang stopping time, user is using the position of virtual aircraft as the visual field, it is seen that ground target ratio regular meeting it is identical, to avoid user The ratio for the ground target seen after map A operation virtual aircraft hovering is big, and in map B operation virtual aircraft hovering The small situation of the ratio of ground target is seen afterwards.

In some embodiments, for each map at least one map, the available map of terminal is corresponding Reference position, terminal can obtain the map corresponding first according to the corresponding reference position of the map and preset height Position, the difference in height between the first position and the reference position are the preset height.Wherein, reference position and first position can To be located in the same coordinate system, reference position and first position can pass through coordinate representation, the x seat of reference position and first position Mark and y-coordinate can be identical, and the z coordinate of first position can be greater than the z coordinate of reference position, and the z coordinate of first position Difference between the z coordinate of reference position is preset height.The multiple points for being in sustained height in map with reference position can be with A reference planes are formed, which is properly termed as the sea level of map, and in this way, virtual aircraft is each The height hovered in map all can be to guarantee that the height above sea level of virtual aircraft will not at the preset height relative to reference planes It changes with the difference of map, to guarantee the consistency of the height above sea level of the first position in different maps.

Schematically, referring to Fig. 5, the left side Fig. 5 shows the reference position 1 of map A, shows the ginseng of map B on the right side of Fig. 5 Position 2 is examined, the first position 1 in map A is located at 1 top preset height of reference position, and the first position 2 in map B is located at At 2 top preset height of reference position, reference position 1 is consistent with the height above sea level of reference position 2, thus ensure that map A and The height above sea level of map B is consistent.

It can in advance be respectively that each map configuration is corresponding in some embodiments about the acquisition modes of reference position Reference position, store the corresponding relationship between map and reference position.Specifically, for each of at least one map Map, terminal can show at least one object in the ground of the map, and one of object can be selected as by user Target object, the target object are properly termed as the land mark or positioning object of map, can be to target object trigger action, eventually End can receive the trigger signal to target object, the position of the target object be obtained, as the reference position.Schematically, Referring to Fig. 6 and Fig. 7, Fig. 6 and Fig. 7 show the schematic diagram on ground, the ladder in ground can be selected as target object, will be terraced The position of son is as reference position.Referring to Fig. 8 and Fig. 9, using the position of object in ground as reference position after, first position meeting Day positioned at virtual scene is aerial, therefore virtual aircraft is flown to a certain first position, and it is aerial to be located at day.

In some embodiments, the acquisition process of virtual objects quantity may include following step one to step in ground region Rapid three:

Step 1: in the available virtual scene of terminal each virtual objects current location.Current location can lead to Cross the coordinate representation in the coordinate system of virtual scene, it is contemplated that virtual objects can move in virtual scene, so that virtual right The position of elephant changes, and terminal can be when receiving flight directive, and virtual objects is current in real-time acquisition virtual scene Position.

Step 2: terminal can be according to the current location of each virtual objects and the position of each ground region, really The ground region that fixed each virtual objects are presently in.

For example, the distance between the available virtual objects of terminal and the ground region are right for any one ground region Distance is compared with distance threshold, if distance is less than distance threshold, terminal determines that virtual objects are in the ground region, If distance is greater than or equal to distance threshold, terminal determines that virtual objects are not in the ground region, wherein ground region can To be the border circular areas using reference position as the center of circle.

Step 3: the ground region that terminal can be presently according to each virtual objects, obtains each ground region In virtual objects quantity.For example, terminal can filter out virtual right in the ground region for any one ground region As statistics is in the quantity of the ground region.

Schematically, by taking virtual objects are enemy as an example, referring to Figure 10, A point, B point and C point indicate three first in Figure 10 Position, each circle indicates the corresponding ground region in a first position, each × to indicate an enemy.Terminal can be according to every It is a × position and each circle position, calculate in each circle × quantity, i.e., the quantity of enemy, obtains in ground region There are 3 enemies in the corresponding ground region of A, there are 2 enemies in the corresponding ground region of B, have 1 in the corresponding ground region of C In addition a enemy has 2 enemies to be not belonging to the corresponding ground region in any one first position.

(2) first position is located in the ground of the virtual scene.

First position is also possible to terrestrial location, for each first position at least one first position, terminal It is available using the first position as the virtual objects quantity in the ground region in the center of circle, will be using the first position as the ground in the center of circle Virtual objects quantity in the region of face is retrieved as the corresponding virtual objects quantity in the first position.

(3) first position is located in the ocean of the virtual scene.

First position is also possible to offshore location, for each first position at least one first position, terminal Virtual objects quantity in the available water body centered on the first position, will be in the water body centered on the first position Virtual objects quantity, be retrieved as the corresponding virtual objects quantity in the first position.

204, terminal chooses the most second position of virtual objects quantity from least one first position.

The second position refers to that the first position that virtual objects are most at least one first position, the second position are virtual fly The destination of row device can be the target hovering point of virtual aircraft.For example, with reference to Figure 10, due to the corresponding ground region of point A Inside there are 3 enemies, there are 2 enemies in the corresponding ground region of point B, there is 1 enemy, point A, point in the corresponding ground region of point C B, enemy's quantity is most in the corresponding ground region of these three the first position midpoints point C A, then terminal meeting selected point A is as second Position is flown to control virtual aircraft to point A.For another example, referring to Fig. 3 and Fig. 4, terminal can analyze point B, point C, point D this A certain range of unfriendly target quantity below three first positions, from point B, point C, these three first positions point D, selection enemy The most point B of people's quantity, as the second position, then aerial gunboat will fly to point B from starting point A.

Optionally, if the corresponding virtual objects quantity in each first position is identical, terminal can from least one first In position, a second position is randomly choosed.

205, it is virtual winged to generate this for the third place that terminal is presently according to the second position and the virtual aircraft First flight path of row device.

The third place refers to virtual aircraft currently the location of in virtual scene.The third place can be virtual fly Point A in the initial position that row device occurs, for example, Fig. 3 and Fig. 4.

The starting point of first flight path can be the third place, and the terminal of the first flight path can be the second position, The shape of first flight path can be any one, as an example, the generating mode of the first flight path can with and under being limited to State any one of the mode (1) into mode (2):

Mode (1) terminal is using the third place as starting point, using the second position as terminal, generates line segment, as this One flight path.For example, with reference to Figure 11, the third place is starting point A, and the second position is point B, then the first flight path is line segment AB.In this way, virtual aircraft can straight line fly to the second position, so that the mileage for reaching virtual aircraft is shortest Effect saves the time that virtual aircraft reaches the second position.

For mode (2) terminal according to the obstacle information of the second position, the third place and the virtual scene, generating should First flight path, obstacle information include the position of each barrier between the second position and the third place, this first fly Row track can not have intersection point with barrier, to guarantee that the first flight path can hide the second position and the third place Between barrier, achieve the effect that automatic dodging aerial barrage object when virtual aircraft flight.

206, terminal controls the virtual aircraft and flies along first flight path to the second in the virtual scene It sets.

For example, with reference to Figure 11, terminal can control virtual aircraft along line segment AB, flight to point B.Wherein, terminal can be with The animation that display virtual aircraft is flown along the first flight path, to simulate the effect that virtual aircraft is flown.It is optional Ground, after virtual aircraft reaches the second position, terminal can control virtual aircraft and rest on the second position, to reach virtual The effect of aircraft hovering.

Optionally, terminal can receive attack instruction, and in virtual scene, control virtual aircraft is corresponding to the second position Virtual objects attacked, for example, terminal can control virtual aircraft to below the second position ground region transmitting lead Bullet, to carry out Strike to each virtual objects in ground region.Schematically, in Figure 11, aerial gunboat can be with After reaching B point, it can launch a guided missile to each enemy below B point, to annihilate the enemy below B point.Wherein, which refers to Order can trigger by the operation of user, or the automatic trigger when virtual aircraft reaches the second position.It is virtual by controlling Aircraft flight attacks the corresponding virtual objects in the second position, to the second position since the second position is corresponding virtual Number of objects is most, it is ensured that can attack most virtual objects after attack, improve the efficiency of attack virtual objects.

In some embodiments, terminal can according to the initial velocity of the virtual aircraft, inceptive direction and this first The mileage of flight path obtains the corresponding speed of interim each time point of flying, control the virtual aircraft it is each according to this when Between put corresponding speed, fly along first flight path to the second position.Wherein, which includes accelerated period and should Deceleration period after accelerated period, speed increases with the passage at time point in the accelerated period, in the deceleration period speed with when Between the passage put and reduce.Schematically, referring to Figure 12, the speed flown in virtual scene it illustrates virtual aircraft The speed of schematic diagram, virtual aircraft can first become larger at any time, then become smaller at any time, by flying according to speed shown in Figure 12 Row, can first ramp up, then gradually slow down, to realize when virtual aircraft flight from accelerating to slowly stable transition effect Fruit makes the flight effect of virtual aircraft more naturally steady.

207, terminal switches the virtual aircraft the location of in the virtual scene.

Position of the virtual aircraft in virtual scene can be switched to except the second position by terminal from the second position Remaining position, to refresh the display position of virtual aircraft.

In some embodiments, terminal can be corresponding virtual according to the position of remaining except the second position in virtual scene Number of objects, remaining position that control virtual aircraft is flown from the second position to virtual objects quantity at most reach virtual and fly Row device is flown automatically to the effect of the most position of next virtual objects quantity.For example, with reference to Figure 13 and Figure 14, virtual flight The second position that device is presently in is point B, and a certain range below two hovering points (point C and point D) midpoint C except point B Interior enemy's quantity is most, then terminal can control virtual aircraft and fly from point B to point C, in this way, virtual aircraft may be implemented When each transferring position, the most hovering point of other unfriendly targets of Automatic-searching is come the effect that is shifted.

Specifically, terminal can be corresponding according to remaining position except the second position at least one first position Virtual objects quantity chooses virtual objects number from remaining position except the second position at least one first position Measure most the third places；Terminal generates the second flight of the virtual aircraft according to the third place and the second position Track；Terminal controls the virtual aircraft and flies along second flight path to the third place in the virtual scene.Its In, it generates the mode of the second flight path and the mode for generating the first flight path similarly, controls virtual aircraft and fly along second Similarly, this will not be repeated here for the mode that the mode and control virtual aircraft of row track flight are flown along the first flight path.It can Selection of land, if the corresponding virtual objects quantity in remaining position except the second position is identical, terminal can from remaining position, with Machine selects a third place.

Schematically, referring to Figure 14 and Figure 15, terminal can be corresponding according to the corresponding virtual objects quantity of point C and point D Virtual objects quantity choose the most point C of virtual objects quantity from point C and point D；Terminal is raw according to point C and point B Cheng Yidian B is starting point, using point C as the line segment BC of terminal, as the second flight path；Terminal is in the virtual scene, control The virtual aircraft is flown along line segment BC to point C.

The function of virtual aircraft switching position can be triggered by one or more modes.As an example, can pass through Following manner one to one of mode two or it is a variety of come triggering terminal switching virtual scene in the location of virtual aircraft.

Mode one automatically switches.

Terminal can control the virtual aircraft and stop at the second position in the virtual scene, while start timing Device starts timing, and when the duration that virtual aircraft stops reaches preset duration, terminal can switch the virtual aircraft and exist The location of in the virtual scene, such as control virtual aircraft is flown from the second position to the third place.Similarly, virtually After aircraft reaches the third place, terminal can control the virtual aircraft and stop at the third place in the virtual scene, When the duration that virtual aircraft stops reaches preset duration, terminal can switch the virtual aircraft in the virtual scene again It is the location of middle.And so on, the function that can be automatically switched with periodic triggers, that is, every preset duration, switch virtual fly Position of the row device in virtual scene, to realize that virtual aircraft is then automatically transferred to from a hovering point every preset duration The function of another hovering point.Wherein, preset duration can be denoted as the hovering duration of virtual aircraft.

Schematically, referring to fig. 4, virtual aircraft can be flown automatically from point A to point B, point first after point A appearance C, the most point B of virtual objects quantity in point D flies into C, D virtual objects from point B automatically after point B hovers preset duration The most point C of quantity flies from point C to point D automatically after point C hovers preset duration.

Mode two, operation switching.

Terminal can be in the virtual scene, display position toggle control, when user will switch virtual aircraft virtual , can be to position toggle control trigger action when the location of in scene, then terminal can receive in the position toggle control Trigger signal switches the virtual aircraft the location of in the virtual scene.Wherein, the position toggle control is for switching Position where the virtual aircraft can be a button.

In some embodiments, activation control in position can keep state of activation, that is to say, virtual aircraft is in second When the duration for setting stop is less than preset duration, is equal to preset duration or is greater than preset duration, with per family can be by being cut to position Control trigger action is changed to switch the position of virtual aircraft.In further embodiments, position activation control can be virtual Aircraft is active when the duration that the second position stops reaches preset duration, and when the duration of stop reaches default Deactivation status is in when long.For example, terminal can be in virtual aircraft timing when the second place starts to stop, if empty Quasi- aircraft reaches preset duration in the duration that the second position stops, then terminal activates the position toggle control, and user can lead to It crosses to position toggle control trigger action and switches the position of virtual aircraft.

Schematically, referring to Figure 16 and Figure 17, Figure 16 and Figure 17 are the interfaces that one exemplary embodiment of the application provides Schematic diagram, Figure 16 and Figure 17 shows the functions of the hovering point of the aerial gunboat of manual switching.It presses in the lower left corner of Figure 16 and Figure 17 Button is position toggle control, and when clicking the button, terminal can be from remaining hovering point except current hovering point, Automatic-searching The most hovering point of unfriendly target on ground, the hovering point most to the unfriendly target of flying from current hovering point.

It is alternatively possible to use duration for virtual aircraft configuration is default, terminal can show void from virtual scene Start timing when quasi- aircraft, when time point, which reaches, presets using duration, virtual aircraft is terminated using the time, and terminal can The visual angle of user to be switched back into the personage on ground out of virtual aircraft, and the weapon of control is switched back into from virtual aircraft Weapon originally, to terminate the first use process of virtual aircraft.

By executing method provided in this embodiment, the function of virtual aircraft automatic cruising may be implemented.Virtually to fly Row device is aerial gunboat, and first position is known as hovering point, and referring to Figure 18, Figure 18 is the stream of aerial gunboat automatic cruising method Cheng Tu, the flow diagrams illustrate following steps:

Step 1: user uses aerial gunboat, such as perform the operation for calling aerial gunboat.

Step 2: the land mark that terminal obtains in map calculates aerial big gun according to the land mark and preset height Ship map height, such as by the height of land mark and preset height and value, the start bit occurred as aerial gunboat The height set shows aerial gunboat in initial position.

Step 3: terminal from three hovering points of virtual scene, obtains the hovering point most from enemy's quantity, control is empty Middle gunboat flies to the hovering point, hovers in the hovering point, executes step 4 or step 5.

Step 4: terminal judges whether the duration of aerial gunboat hovering is more than preset duration, if aerial gunboat hovering Duration is more than preset duration, executes step 6, if the duration of aerial gunboat hovering is more than preset duration, executes step 7.

Step 5: terminal judges whether click location toggle control executes user if user's click location toggle control Step 6 executes step 7 if user does not click on position toggle control.

Step 6: which terminal according to enemy's quantity below other two hovering point, judges in other two hovering point Enemy's quantity is most below hovering point, and control virtual aircraft is flown from the hovering point being presently in the hovering point.

Step 7: the aerial gunboat of terminal control is slack.

A kind of method for present embodiments providing automatic control virtual aircraft flight, by intelligently dividing from virtual scene The most position of virtual objects quantity, such as the position that unfriendly target is most is precipitated, control virtual aircraft is according to automatic planning Flight path out automatically moves to the position, to realize the function of automatic cruising, on the one hand, eliminate user couple The troublesome operation of virtual aircraft saves the time spent needed for control virtual aircraft flight, therefore it is empty to improve control The efficiency of quasi- aircraft flight, on the other hand, for the mode for manually finding destination for virtual aircraft, Neng Gourang Virtual aircraft accurately reaches the most position of virtual objects, guarantees that the destination of virtual aircraft is more accurate, while conveniently User executes attack or other operation behaviors to most virtual objects by virtual aircraft.

Figure 19 is a kind of structural schematic diagram of the device of control virtual aircraft flight provided by the embodiments of the present application.Referring to Figure 19, the device include: to obtain module 1901, choose module 1902, generation module 1903, control module 1904.

Module 1901 is obtained, for obtaining at least one first position pair in virtual scene when receiving flight directive The virtual objects quantity answered；

Module 1902 is chosen, for from least one first position, choosing the most second of virtual objects quantity It sets；

Generation module 1903, the third place for being presently according to the second position and the virtual aircraft are raw At the first flight path of the virtual aircraft；

Control module 1904 is flown in the virtual scene, controlling the virtual aircraft along first flight path To the second position.

The embodiment of the present application provides a kind of device of automatic control virtual aircraft flight, passes through the intelligence from virtual scene The most position of virtual objects quantity, such as the position that unfriendly target is most can be analyzed, controls virtual aircraft according to automatic The flight path cooked up automatically moves to the position, to realize the function of automatic cruising, on the one hand, eliminate use Family saves the time spent needed for control virtual aircraft flight to the troublesome operation of virtual aircraft, therefore improves control The efficiency of virtual aircraft flight processed, on the other hand, for the mode for manually finding destination for virtual aircraft, energy It enough allows virtual aircraft accurately to reach the most position of virtual objects, guarantees that the destination of virtual aircraft is more accurate, simultaneously User is facilitated to execute attack or other operation behaviors to most virtual objects by virtual aircraft.

Optionally, the day which is located at the virtual scene is aerial, which is used for: For each first position at least one first position, by the virtual objects in the ground region below the first position Quantity is retrieved as the corresponding virtual objects quantity in the first position；Alternatively,

At least one first position is located in the ground of the virtual scene, which is used for: extremely for this Each first position in a few first position, will be using the first position as the virtual objects number in the ground region in the center of circle Amount, is retrieved as the corresponding virtual objects quantity in the first position；Alternatively,

At least one first position is located in the ocean of the virtual scene, which is used for: extremely for this Virtual objects quantity in water body centered on the first position is obtained each first position in a few first position It is taken as the corresponding virtual objects quantity in the first position.

Optionally, the acquisition module 1901, is also used to obtain the current location of each virtual objects in the virtual scene；

The device further include: determining module, for the current location and each ground area according to each virtual objects The position in domain determines the ground region that each virtual objects are presently in；

The acquisition module 1901, the ground region for being presently according to each virtual objects, obtains each ground Virtual objects quantity in region.

Optionally, the generation module 1903, any one of following for executing:

Using the third place as starting point, using the second position as terminal, line segment is generated, as first flight path；

According to the obstacle information of the second position, the third place and the virtual scene, the first flight rail is generated Mark, first flight path can hide the barrier between the second position and the third place.

Optionally, the control module 1904, comprising:

Acquisition submodule, for according to the initial velocity of the virtual aircraft, inceptive direction and first flight path Mileage, the corresponding speed of interim each time point of flying is obtained, after which includes accelerated period and the accelerated period Deceleration period, speed increases with the passage at time point in the accelerated period, in the deceleration period speed with the passage at time point and Reduce；

Control submodule first flies for controlling the virtual aircraft according to the corresponding speed of each time point along this It flies to the second position row track.

Optionally, which is located at least one map of the virtual scene, the acquisition mould Block 1901 is also used to according to the corresponding reference position of the map and preset each map at least one map Highly, the corresponding first position of the map is obtained, the difference in height between the first position and the reference position is the preset height.

Optionally, the device further include:

Display module, at least one object in ground for showing the map；

Receiving module, for receiving the trigger signal to target object at least one object；

The acquisition module 1901, is also used to obtain the position of the target object, as the reference position.

Optionally, the control module 1904, is also used in the virtual scene, control the virtual aircraft stop at this Two positions；

The device further include: switching module, for switching the virtual aircraft when the duration of stopping reaches preset duration The location of in the virtual scene.

Optionally, the device further include:

Display module, in the virtual scene, display position toggle control, the position toggle control to be for switching this Position where virtual aircraft；

Receiving module, for receiving the trigger signal in the position toggle control；

Switching module, for switching the virtual aircraft the location of in the virtual scene.

Optionally, the switching module, comprising:

Submodule is chosen, for choosing from remaining position except the second position at least one first position The most the third place of virtual objects quantity；

Submodule is generated, for according to the third place and the second position, generate the virtual aircraft second to fly Row track；

Control submodule, in the virtual scene, control the virtual aircraft along second flight path fly to The third place.

Optionally, device further include: display module, for showing flight control in the virtual scene, which refers to It enables and being triggered by the trigger signal to the flight control；Alternatively,

The flight directive is primary every preset duration triggering.

All the above alternatives can form the alternative embodiment of the disclosure, herein no longer using any combination It repeats one by one.

It should be understood that the device of control virtual aircraft flight provided by the above embodiment is in control virtual aircraft When flight, only the example of the division of the above functional modules, in practical application, it can according to need and by above-mentioned function It can distribute and be completed by different functional modules, i.e., will control the device of the control virtual aircraft flight of virtual aircraft flight Internal structure is divided into different functional modules, to complete all or part of the functions described above.In addition, above-described embodiment The device of the control virtual aircraft flight of offer and the embodiment of the method for control virtual aircraft flight belong to same design, Specific implementation process is detailed in embodiment of the method, and which is not described herein again.

Figure 20 shows the structural block diagram of the electronic equipment 2000 of one exemplary embodiment of the application offer, electronic equipment 2000 can be the terminal in above method embodiment.The electronic equipment 2000 may is that smart phone, tablet computer, MP3 are broadcast Put device (Moving Picture Experts Group Audio Layer III, dynamic image expert's compression standard audio layer Face 3), MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert's compression standard audio Level 4) player, laptop or desktop computer.Electronic equipment 2000 is also possible to referred to as user equipment, portable electronic Other titles such as equipment, electronic equipment on knee, table type electronic equipment.

In general, electronic equipment 2000 includes: processor 2001 and memory 2002.

Processor 2001 may include one or more processing cores, such as 4 core processors, 8 core processors etc..Place Reason device 2001 can use DSP (Digital Signal Processing, Digital Signal Processing), FPGA (Field- Programmable Gate Array, field programmable gate array), PLA (Programmable Logic Array, may be programmed Logic array) at least one of example, in hardware realize.Processor 2001 also may include primary processor and coprocessor, master Processor is the processor for being handled data in the awake state, also referred to as CPU (Central Processing Unit, central processing unit)；Coprocessor is the low power processor for being handled data in the standby state.In In some embodiments, processor 2001 can be integrated with GPU (Graphics Processing Unit, image processor), GPU is used to be responsible for the rendering and drafting of content to be shown needed for display screen.In some embodiments, processor 2001 can also be wrapped AI (Artificial Intelligence, artificial intelligence) processor is included, the AI processor is for handling related machine learning Calculating operation.

Memory 2002 may include one or more computer readable storage mediums, which can To be non-transient.Memory 2002 may also include high-speed random access memory and nonvolatile memory, such as one Or multiple disk storage equipments, flash memory device.In some embodiments, the non-transient computer in memory 2002 can Storage medium is read for storing at least one instruction, at least one instruction performed by processor 2001 for realizing this Shen Please in embodiment of the method provide control virtual aircraft fly method.

In some embodiments, electronic equipment 2000 is also optional includes: peripheral device interface 2003 and at least one outside Peripheral equipment.It can be connected by bus or signal wire between processor 2001, memory 2002 and peripheral device interface 2003.Respectively A peripheral equipment can be connected by bus, signal wire or circuit board with peripheral device interface 2003.Specifically, peripheral equipment packet It includes: radio circuit 2004, touch display screen 2005, CCD camera assembly 2006, voicefrequency circuit 2007, positioning component 2008 and power supply At least one of 2009.

Peripheral device interface 2003 can be used for I/O (Input/Output, input/output) is relevant outside at least one Peripheral equipment is connected to processor 2001 and memory 2002.In some embodiments, processor 2001, memory 2002 and periphery Equipment interface 2003 is integrated on same chip or circuit board；In some other embodiments, processor 2001, memory 2002 and peripheral device interface 2003 in any one or two can be realized on individual chip or circuit board, this implementation Example is not limited this.

Radio circuit 2004 is for receiving and emitting RF (Radio Frequency, radio frequency) signal, also referred to as electromagnetic signal. Radio circuit 2004 is communicated by electromagnetic signal with communication network and other communication equipments.Radio circuit 2004 is by telecommunications Number being converted to electromagnetic signal is sent, alternatively, the electromagnetic signal received is converted to electric signal.Optionally, radio circuit 2004 include: antenna system, RF transceiver, one or more amplifiers, tuner, oscillator, digital signal processor, volume solution Code chipset, user identity module card etc..Radio circuit 2004 can by least one wireless communication protocol come with it is other Electronic equipment is communicated.The wireless communication protocol includes but is not limited to: WWW, Metropolitan Area Network (MAN), Intranet, each third-generation mobile communication Network (2G, 3G, 4G and 5G), WLAN and/or WiFi (Wireless Fidelity, Wireless Fidelity) network.Some In embodiment, radio circuit 2004 can also include that NFC (Near Field Communication, wireless near field communication) has The circuit of pass, the application are not limited this.

Display screen 2005 is for showing UI (User Interface, user interface).The UI may include figure, text, Icon, video and its their any combination.When display screen 2005 is touch display screen, display screen 2005 also there is acquisition to exist The ability of the touch signal on the surface or surface of display screen 2005.The touch signal can be used as control signal and be input to place Reason device 2001 is handled.At this point, display screen 2005 can be also used for providing virtual push button and/or dummy keyboard, it is also referred to as soft to press Button and/or soft keyboard.In some embodiments, display screen 2005 can be one, and the front panel of electronic equipment 2000 is arranged；In In other embodiments, display screen 2005 can be at least two, be separately positioned on the different surfaces of electronic equipment 2000 or be in Foldover design；In still other embodiments, display screen 2005 can be flexible display screen, and the bending of electronic equipment 2000 is arranged in On surface or on fold plane.Even, display screen 2005 can also be arranged to non-rectangle irregular figure, namely abnormity screen.It is aobvious Display screen 2005 can use LCD (Liquid Crystal Display, liquid crystal display), OLED (Organic Light- Emitting Diode, Organic Light Emitting Diode) etc. materials preparation.

CCD camera assembly 2006 is for acquiring image or video.Optionally, CCD camera assembly 2006 includes front camera And rear camera.In general, the front panel of electronic equipment is arranged in front camera, electronic equipment is arranged in rear camera The back side.In some embodiments, rear camera at least two are main camera, depth of field camera, wide-angle imaging respectively Head, any one in focal length camera, to realize that main camera and the fusion of depth of field camera realize that background blurring function, master are taken the photograph As head and wide-angle camera fusion realize pan-shot and VR (Virtual Reality, virtual reality) shooting function or Other fusion shooting functions.In some embodiments, CCD camera assembly 2006 can also include flash lamp.Flash lamp can be list Colour temperature flash lamp is also possible to double-colored temperature flash lamp.Double-colored temperature flash lamp refers to the combination of warm light flash lamp and cold light flash lamp, It can be used for the light compensation under different-colour.

Voicefrequency circuit 2007 may include microphone and loudspeaker.Microphone is used to acquire the sound wave of user and environment, and It converts sound waves into electric signal and is input to processor 2001 and handled, or be input to radio circuit 2004 to realize that voice is logical Letter.For stereo acquisition or the purpose of noise reduction, microphone can be separately positioned on the different portions of electronic equipment 2000 to be multiple Position.Microphone can also be array microphone or omnidirectional's acquisition type microphone.Loudspeaker be then used for will from processor 2001 or The electric signal of radio circuit 2004 is converted to sound wave.Loudspeaker can be traditional wafer speaker, be also possible to piezoelectric ceramics Loudspeaker.When loudspeaker is piezoelectric ceramic loudspeaker, the audible sound wave of the mankind can be not only converted electrical signals to, it can also To convert electrical signals to the sound wave that the mankind do not hear to carry out the purposes such as ranging.In some embodiments, voicefrequency circuit 2007 It can also include earphone jack.

Positioning component 2008 is used for the current geographic position of Positioning Electronic Devices 2000, to realize navigation or LBS (Location Based Service, location based service).Positioning component 2008 can be the GPS based on the U.S. The Galileo system of the dipper system or Russia of (Global Positioning System, global positioning system), China Positioning component.

Power supply 2009 is used to be powered for the various components in electronic equipment 2000.Power supply 2009 can be alternating current, Direct current, disposable battery or rechargeable battery.When power supply 2009 includes rechargeable battery, which can be Line rechargeable battery or wireless charging battery.Wired charging battery is the battery to be charged by Wireline, and wireless charging battery is The battery to be charged by wireless coil.The rechargeable battery can be also used for supporting fast charge technology.

In some embodiments, electronic equipment 2000 further includes having one or more sensors 2010.The one or more Sensor 2010 includes but is not limited to: acceleration transducer 2011, gyro sensor 2012, pressure sensor 2013, fingerprint Sensor 2014, optical sensor 2015 and proximity sensor 2016.

Acceleration transducer 2011 can detecte adding in three reference axis of the coordinate system established with electronic equipment 2000 Velocity magnitude.For example, acceleration transducer 2011 can be used for detecting component of the acceleration of gravity in three reference axis.Processing The acceleration of gravity signal that device 2001 can be acquired according to acceleration transducer 2011 controls touch display screen 2005 with lateral view Figure or longitudinal view carry out the display of user interface.Acceleration transducer 2011 can be also used for game or the movement number of user According to acquisition.

Gyro sensor 2012 can detecte body direction and the rotational angle of electronic equipment 2000, gyro sensor 2012 can cooperate with acquisition user to act the 3D of electronic equipment 2000 with acceleration transducer 2011.Processor 2001 is according to top The data that spiral shell instrument sensor 2012 acquires, may be implemented following function: action induction (for example changed according to the tilt operation of user Become UI), shooting when image stabilization, game control and inertial navigation.

Pressure sensor 2013 can be set under the side frame of electronic equipment 2000 and/or touch display screen 2005 Layer.When the side frame of electronic equipment 2000 is arranged in pressure sensor 2013, user can detecte to electronic equipment 2000 Signal is held, right-hand man's identification or quick behaviour are carried out according to the gripping signal that pressure sensor 2013 acquires by processor 2001 Make.It is aobvious to touching according to user by processor 2001 when the lower layer of touch display screen 2005 is arranged in pressure sensor 2013 The pressure operation of display screen 2005, realization control the operability control on the interface UI.Operability control includes button At least one of control, scroll bar control, icon control, menu control.

Fingerprint sensor 2014 is used to acquire the fingerprint of user, is collected by processor 2001 according to fingerprint sensor 2014 Fingerprint recognition user identity, alternatively, by fingerprint sensor 2014 according to the identity of collected fingerprint recognition user.Knowing Not Chu the identity of user when being trusted identity, authorize the user to execute relevant sensitive operation by processor 2001, which grasps Make to include solving lock screen, checking encryption information, downloading software, payment and change setting etc..Fingerprint sensor 2014 can be set Set the front, the back side or side of electronic equipment 2000.When being provided with physical button or manufacturer Logo on electronic equipment 2000, refer to Line sensor 2014 can be integrated with physical button or manufacturer Logo.

Optical sensor 2015 is for acquiring ambient light intensity.In one embodiment, processor 2001 can be according to light The ambient light intensity that sensor 2015 acquires is learned, the display brightness of touch display screen 2005 is controlled.Specifically, work as ambient light intensity When higher, the display brightness of touch display screen 2005 is turned up；When ambient light intensity is lower, the aobvious of touch display screen 2005 is turned down Show brightness.In another embodiment, the ambient light intensity that processor 2001 can also be acquired according to optical sensor 2015, is moved The acquisition parameters of state adjustment CCD camera assembly 2006.

Proximity sensor 2016, also referred to as range sensor are generally arranged at the front panel of electronic equipment 2000.Close to sensing Device 2016 is used to acquire the distance between the front of user Yu electronic equipment 2000.In one embodiment, work as proximity sensor 2016 when detecting that the distance between the front of user and electronic equipment 2000 gradually becomes smaller, and is touched by the control of processor 2001 aobvious Display screen 2005 is switched to breath screen state from bright screen state；When proximity sensor 2016 is detecting user and electronic equipment 2000 just When the distance between face becomes larger, touch display screen 2005 is controlled by processor 2001 and is switched to bright screen shape from breath screen state State.

It will be understood by those skilled in the art that structure shown in Figure 20 does not constitute the restriction to electronic equipment 2000, It may include perhaps combining certain components than illustrating more or fewer components or being arranged using different components.

In the exemplary embodiment, a kind of computer readable storage medium is additionally provided, the memory for example including instruction, The method that above-metioned instruction can be executed by processor to complete the flight of the control virtual aircraft in above-described embodiment.For example, calculating Machine readable storage medium storing program for executing can be read-only memory (Read-Only Memory, referred to as: ROM), random access memory (Random Access Memory, referred to as: RAM), CD-ROM (Compact Disc Read-Only Memory, referred to as: CD-ROM), tape, floppy disk and optical data storage devices etc..

It should be understood that magnitude of the sequence numbers of the above procedures are not meant to execute suitable in the various embodiments of the application Sequence it is successive, the execution of each process sequence should be determined by its function and internal logic, the implementation without coping with the embodiment of the present application Process constitutes any restriction.

It should be understood that determine that B is not meant to determine B only according to A according to A, it can also be true according to A and/or other information Determine B.

Those of ordinary skill in the art will appreciate that realizing that all or part of the steps of above-described embodiment can pass through hardware It completes, relevant hardware can also be instructed to complete by program, the program being somebody's turn to do can store computer-readable deposits in a kind of In storage media, storage medium mentioned above can be read-only memory, disk or CD etc..

The above is only the preferred embodiments of the application, all in spirit herein and principle not to limit the application Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this application.

Claims (15)

1. a kind of method of control virtual aircraft flight, which is characterized in that the described method includes:

When receiving flight directive, the corresponding virtual objects quantity at least one first position in virtual scene is obtained；

From at least one described first position, the most second position of virtual objects quantity is chosen；

According to the third place that the second position and virtual aircraft are presently in, the first of the virtual aircraft is generated Flight path；

In the virtual scene, controls the virtual aircraft and fly along first flight path to the second position.

2. the method according to claim 1, wherein

The day that at least one described first position is located at the virtual scene is aerial, at least one in the acquisition virtual scene The corresponding virtual objects quantity in one position, comprising:, will be described for each first position at least one described first position Virtual objects quantity in ground region below first position is retrieved as the corresponding virtual objects quantity in the first position； Alternatively,

At least one described first position is located in the ground of the virtual scene, at least one in the acquisition virtual scene The corresponding virtual objects quantity in one position, comprising:, will be with institute for each first position at least one described first position The virtual objects quantity in the ground region that first position is the center of circle is stated, the corresponding virtual objects number in the first position is retrieved as Amount；Alternatively,

At least one described first position is located in the ocean of the virtual scene, at least one in the acquisition virtual scene The corresponding virtual objects quantity in one position, comprising:, will be with institute for each first position at least one described first position The virtual objects quantity in the water body centered on first position is stated, the corresponding virtual objects quantity in the first position is retrieved as.

3. according to the method described in claim 2, it is characterized in that, in the ground region by below the first position Virtual objects quantity is retrieved as before the corresponding virtual objects quantity in the first position, the method also includes:

Obtain the current location of each virtual objects in the virtual scene；

According to the current location of each virtual objects and the position of each ground region, determine that each virtual objects are current Locating ground region；

According to the ground region that each virtual objects are presently in, the virtual objects quantity in each ground region is obtained.

4. control is described virtual winged the method according to claim 1, wherein described in the virtual scene Row device flies along first flight path to the second position, comprising:

According to the mileage of the initial velocity of the virtual aircraft, inceptive direction and first flight path, flight is obtained The corresponding speed of interim each time point, the flight phase includes the deceleration period after accelerated period and the accelerated period, described Speed increases with the passage at time point in accelerated period, and speed reduces with the passage at time point in the deceleration period；

In the virtual scene, the virtual aircraft is controlled according to the corresponding speed of each time point, along described One flight path is flown to the second position.

5. the method according to claim 1, wherein described work as according to the second position and virtual aircraft Preceding locating the third place generates the first flight path of the virtual aircraft, including any one of following:

Using the third place as starting point, using the second position as terminal, line segment is generated, as the first flight rail Mark；

According to the obstacle information of the second position, the third place and the virtual scene, generates described first and fly Row track, first flight path can hide the barrier between the second position and the third place.

6. the method according to claim 1, wherein at least one described first position be located at it is described virtual In at least one map of scene, in the acquisition virtual scene the corresponding virtual objects quantity at least one first position it Before, the method also includes:

For each map at least one described map, according to the corresponding reference position of the map and preset height, The corresponding first position of the map is obtained, the difference in height between the first position and the reference position is the default height Degree.

7. according to the method described in claim 6, it is characterized in that, described according to the corresponding reference position of the map and pre- If height, before obtaining the corresponding first position of the map, the method also includes:

Show at least one object in the ground of the map；

Receive the trigger signal to target object at least one described object；

The position for obtaining the target object, as the reference position.

8. control is described virtual winged the method according to claim 1, wherein described in the virtual scene Row device flies along first flight path to the second position, the method also includes:

In the virtual scene, controls the virtual aircraft and stop at the second position；

When the duration of stopping reaches preset duration, switch the virtual aircraft the location of in the virtual scene.

9. control is described virtual winged the method according to claim 1, wherein described in the virtual scene Row device flies along first flight path to the second position, the method also includes:

In the virtual scene, display position toggle control, the position toggle control is for switching the virtual aircraft The position at place；

Receive the trigger signal in the position toggle control；

Switch the virtual aircraft the location of in the virtual scene.

10. method according to claim 8 or claim 9, which is characterized in that the switching virtual aircraft is described virtual The location of in scene, comprising:

In remaining position except the second position described at least one described first position, it is most to choose virtual objects quantity The third place；

According to the third place and the second position, the second flight path of the virtual aircraft is generated；

In the virtual scene, controls the virtual aircraft and fly along second flight path to the third place.

11. control is described virtual winged the method according to claim 1, wherein described in the virtual scene Row device flies along first flight path to the second position, the method also includes:

Receive attack instruction；

In the virtual scene, controls the virtual aircraft and the corresponding virtual objects in the second position are attacked.

12. a kind of device of control virtual aircraft flight, which is characterized in that described device includes:

Module is obtained, it is corresponding virtual for when receiving flight directive, obtaining at least one first position in virtual scene Number of objects；

Module is chosen, for from least one described first position, choosing the most second position of virtual objects quantity；

Generation module, the third place for being presently according to the second position and virtual aircraft, generates the void First flight path of quasi- aircraft；

Control module, in the virtual scene, control the virtual aircraft along first flight path fly to The second position.

13. device according to claim 12, which is characterized in that at least one described first position is located at the virtual field The day of scape is aerial, and the acquisition module is used for:, will be described for each first position at least one described first position Virtual objects quantity in ground region below first position is retrieved as the corresponding virtual objects quantity in the first position； Alternatively,

At least one described first position is located in the ground of the virtual scene, and the acquisition module is used for: for it is described extremely Each first position in a few first position, will be using the first position as the virtual objects number in the ground region in the center of circle Amount, is retrieved as the corresponding virtual objects quantity in the first position；Alternatively,

At least one described first position is located in the ocean of the virtual scene, and the acquisition module is used for: for it is described extremely Each first position in a few first position, by the virtual objects quantity in the water body centered on the first position, It is retrieved as the corresponding virtual objects quantity in the first position.

14. a kind of electronic equipment, which is characterized in that the electronic equipment includes that one or more processors and one or more are deposited Reservoir is stored at least one instruction in one or more of memories, and described instruction is by one or more of processors It loads and executes to realize the method institute flown such as claim 1 to the described in any item control virtual aircrafts of claim 11 The operation of execution.

15. a kind of computer readable storage medium, which is characterized in that be stored at least one instruction, institute in the storage medium Instruction is stated to be loaded by processor and executed to realize such as claim 1 to the described in any item control virtual flights of claim 11 Operation performed by the method for device flight.